KR870006380A - Cross-flow midstream coil fluid cooling device - Google Patents

Abstract

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Description

Cross-flow midstream coil fluid cooling device

Since this is an open matter, no full text was included.

1 is a partial cross-sectional view of a cooling tower according to the invention.

2 is a side view of a heat exchanger coil modulus according to the present invention.

3 is a plan view of a heat exchanger coil modulus in accordance with the present invention.

4 is a front view of a heat exchanger coil modulus according to the present invention.

5 is a side view of one tube of a coil modulus according to the present invention.

6 is a plan view of one tube of a coil module according to the present invention.

* Explanation of symbols for main parts of the drawings

10: cooling tower (cookingtower) 12: fan enclosure

14: fan 20,22: louver end

24: sump 30: distribution pipe

32: spray nozzle 36: fill bundle

40: air outlet chamber

42: coil heat exchanger 44: conduit

60: coil assembly module

70 module inlet manifold

71: module outlet manifold

98,102: U-bend

104,106: straight length or run

110 sidewall 111 beam

Claims (27)

An enclosure having an inlet at the side, a plurality of fill plates supported from the receiving side wall adjacent to the air inlet, a spray distribution device for supplying the distillate liquid downward through the plurality of fill plates, and through the air inlet. A device for providing airflow across the plate that crosses the distillate liquid and an inlet manifold for receiving the fluid to be cooled and an outlet adjacent the air inlet for allowing the cooled fluid to be discharged to the fluid conduit A crossflow coil fluid cooling device, comprising a plurality of fluid conduits, which is supported under a plurality of platelets by passages of the distillation liquid connected to the manifold. 2. The liquid of claim 1, wherein the liquid flowing out from the writing plate is cooled by the air flowing from the air inlet, and the hot water flowing out of the filling device receives the fluid to be cooled at the top. A crossflow distillation coil fluid cooling device characterized by being in contact with a fluid conduit device comprising a hottest inlet fluid. 2. The device of claim 1, wherein each fluid conduit device is inclined and fixed in the frame to include a plurality of balanced circuit kits each including a straight length portion in which each modulus is fixed by a return bend. A crossflow distillation coil fluid cooling device comprising a plurality of modulus inclined downward toward a manifold. 2. The fluid conduit device of claim 1, wherein each fluid conduit device constitutes a plurality of balanced circuit kits each including a linear length part fixed by a return bend, and each linear length part is arranged to be inclined downward toward the discharge manifold. Cross flow distillation coil fluid cooling device. 2. The fluid conduit device according to claim 1, wherein the length and the bend are alternately arranged such that the bend is essentially horizontally arranged so that it is continuously rotated in the opposite direction and the injecting run is slightly inclined in the fluid flow direction. Cross flow distillation coil fluid cooling device, characterized in that consisting of a spiral tube. The cross flow distillation coil fluid cooling device according to claim 1, wherein each plate is made of plastic such as polyvinyl chloride. The cross flow distillation coil fluid cooling device according to claim 1, wherein each fluid conduit device comprises a plurality of copper tubes. The cross flow distillation coil fluid cooling device according to claim 1, wherein each fluid conduit device comprises a plurality of metal tubes. The cross flow distillation coil fluid cooling device of claim 1, wherein each fluid conduit device comprises a plurality of nonmetallic tubes. The cross flow distillation coil fluid cooling device according to claim 1, wherein an inlet supply pipe for the fluid to be cooled penetrates a cutout portion of one of the plate plates while extending to the inlet manifold. The minimum temperature of the fluid conduit device of claim 1, wherein the lowest temperature fluid falling from the fill street bundle comes into contact with the fluid conduit unit including the lowest temperature fluid and flows into the air inlet. A crossflow distillation coil fluid cooling device comprising: receiving the fluid to be cooled in such a manner that air is in contact with the fluid conduit device portion containing the lowest temperature fluid. Providing a frame device comprising a cross draft mechanism, the liquid being sprayed downward from the nozzle toward the collection sump at the top of the frame device and again pumping the liquid upward from the sump toward the nozzle Step, providing a styling device under liquid injection, and connecting the inlet of the coil device to a source of fluid to be cooled and the outlet of the coil to a discharge device for receiving the cooling liquid discharged from the cooling tower. And providing a coil device to form a heat pipe ventilation device installed below the sheet-writing device. 13. The method of claim 12, wherein the coil device comprises a plurality of balanced circuits, each comprising a plurality of balanced circuits, each comprising a straight line connected by a return bend, and is formed of a plurality of modulus formed to be inclined downward inclined downward Liquid cooling method characterized in that. The liquid cooling method according to claim 12, wherein the coil device constitutes a plurality of balanced coil servo kits each comprising a linear length part connected by a feedback bend so that the linear length part is inclined downward. 13. The apparatus of claim 12, wherein the liquid spray flowing out from the writing device is cooled by cross draft and a coil device inlet for the fluid to be cooled is installed above the coil device at the bottom of the writing device to A liquid cooling method characterized in that the hot liquid discharged to be in contact with the top of the highest temperature of the coil device. An air inlet, a liquid spraying device for appropriately injecting liquid downwardly adjacent to the air inlet, a platen device provided below the liquid injection device adjacent to the air inlet, and a fluid to be cooled by being installed under the platen device And a coil device for allowing the fluid to be discharged after being received and cooled. 17. The coil apparatus according to claim 16, wherein the coil apparatus is in contact with the coil apparatus portion including the lowest temperature fluid falling from the writing plate apparatus and the lowest temperature air introduced from the air inlet includes the lowest temperature fluid. And in a contacting manner, the fluid to be cooled to receive the fluid to be cooled. 17. The apparatus of claim 16, wherein the coil apparatus constitutes a plurality of coil modules and an inlet manifold is used to provide a cooled fluid on top of each coil module so that the highest temperature of water flowing from the writing apparatus is cooled. Mechanical ventilation cooling apparatus, characterized in that to flow to the coil modulus portion containing the fluid. 19. The mechanical ventilation cooling system according to claim 18, wherein the inlet manifold introduces fluid into the coil modulus at the side of the coil modulus facing the air inlet side of the cooling tower. 17. The apparatus of claim 16, wherein each coil device comprises a plurality of coil modles, each coil modulus constitutes a plurality of balanced circuit kits each including a straight length portion connected by a return bend, and the straight length portion includes a fluid outlet. Machine ventilation device, characterized in that mounted to the cooling tower to be inclined downward toward the. 17. The mechanical ventilation cooling system of claim 16 wherein a damper is provided, if desired, to block the inflow of air to the coil device. 22. The mechanical ventilation cooling system according to claim 21, wherein, if desired, a through panel is provided between the writing plate apparatus and the coil apparatus to block the inflow of air into the coil apparatus. A plurality of balanced coils, generally balanced, inlet manifolds operatively connected to the inner ends of each coil, and a plurality of common straight portions connected by a plurality of return portions, and to the outer ends of the respective coils. Heat exchanger coil modulus consisting of an exhaust manifold that is operably connected. 24. The heat exchanger coil modulus of claim 23, wherein as the device is mounted at a predetermined angle of inclination, the straight portion of the coil is inclined downward toward the discharge manifold in each passage of the tubular heat exchanger across the air inlet chamber. . 25. The heat exchanger coil modulus of claim 24, wherein the straight portion of the coil maintains a general equilibrium relationship. 25. The heat exchanger coil modulus of claim 24, wherein the return bend of the coil maintains a general equilibrium and level relationship. 24. The coil according to claim 23, wherein the coil is appropriately accommodated therein to hold the coil in a predetermined spatial arrangement so as to tilt the fluid inlet side of the modulus upward at a predetermined angle. And a space plane member configured to maintain the spacing and allow the straight length of the coil to be inclined downward by discharging the discharge end thereof. ※ Note: The disclosure is based on the initial application.